In the `V-T` graph shown in figure:

`{:(,"Column-I",,"Column-II"),((A),"Gas" A is ... and gas B is... ", E is ",(p),"monoatomic , diatomic"),((B),"P_(A)/P_(B) is ",(q),"diatomic , monoatomic"),((C),"n_(A)/n_(B) is " " ",(r),"gt1"),(,,(s),"lt1"),(,,(t),"cannot say any thing"):}`

The straight lines in the figure depict the variations in temperature DeltaT as a function of the amount of heat supplied Q is different process involving the change of state of a monoatomic and a diatomic ideal gas . The initial states, ( P,V,T ) of the two gases are the same . Match the processes as described, with the straight lines in the graph as numbered. {:(,"Column-I",,"Column-II"),((A),"Isobaric process of monoatomic gas." ,(p),"1" ),((B),"Isobaric process of diatomic gas" ,(q),"2" ),((C),"Isochoric process of monoatomic gas" ,(r),"Minimum at section B"), ((D),"Isochoric process of diatomic gas" ,(s),"x-axis (i.e.'Q' axis)"):}

Match the Column-I with Column-II: {:(,"Column-I",,"Column-II"),((A),E_(1),(p),"Carbocations"),((B),E_(2),(q),"Strong nucleophile"),((C),S_(N)1,(r),"Reactivity of a alkyl halides" 1^(@)gt2^(@)gt3^(@)),((D),S_(N)2,(s),TS),(,,(t),"Reactivity of alkyl halides" 3^(@)gt2^(@)gt1^(@)):}

{:(,"Column-I",,"Column-II"),("(A)","Atomic mass in grams","(p)","Mole"),("(B)","Gram molar mass","(q)","Gram atom"),("(C)","Avogadro's No.","(r)",6.022xx10^(23)),("(D)","22.4 L of any gas at N.T.P.","(s)","Molecular mass in grams"):}

{:(,"Column-I",,"Column-II"),((A),E_(1)cb,(p),"First order"),((B),S_(N)2,(q),"No rearrangement"),((C),E_(1),(r),"Rearragnement"),((D),S_(N)1,(s),"Strong nucleophile"),(,,(t),"Inversion of configuration"):}

Match the following : {:(,"Column-I",,"Column-II"),((A),3s^(1),(p),n=3),((B), 3p^(1),(q), l=0),((C ), 4s^(1),(r ) , l=1),((D),4d^(1),(s),m=0),(,,(t),m=+-1):}